The Disc Filter

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Description

The Disc Filters belong to the side feed group and have been around for many
years. They are generally used in heavy duty applications such as the dewatering
of iron ore taconite, hematite, coal, aluminum hydrate, copper concentrate,
pyrite flotation concentrates and other beneficiation processes. The high time
for Disc Filters was in the 60's when the metallurgical industries were booming
and filters with 300 m2 and larger were manufactured.

The filter
consists of several discs, up to 15 in the larger machines, each made up from
sectors which are clamped together to form the disc. The sectors are ribbed
towards the neck and designed for a high capacity drainage rate. One of the main
features is that the required floor space taken up by disc filters is minimal
and the cost per m2 of filtration area is the lowest when compared to other
vacuum filters.

During operation each sector enters submergence and a cake is formed on the
face of the discs. It then emerges to the drying zone, the liquid drains to a
central barrel and from there through a valve to the vacuum receiver. The valve
with its bridge setting controls the timing so that once the sector leaves the
drying zone it moves over a separating bridge and a snap or low pressure blow is
applied to discharge the cake. Scraper blades on the side of each disc guide the
cake to discharge chutes which are positioned between adjacent discs and are
wide enough to avoid their clogging by the falling cake. A paddle type agitator
located at the bottom of the tank maintains the slurry in suspension which in
most of the metallurgical applications contains solids with high specific
gravity which are fast settling and abrasive.

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Feed Manifold

Overflow Box

Disc Sectors

Barrel and Valve

Swing Blades

Cake Snap Blow

Discharge Chute

Agitator

Tank

Slurry Drain

The filter consists of the following subassemblies:

Discs and sectors which may be made in injection molded polypropylene,
metal or special redwood.

A center barrel supported by the main bearings and consisting of piped or
trapezoidal filtrate passages. The sectors are attached to the barrel through
"o" ring sealed connections in a number equal to the number of disc sectors.

A valve with bridges and internal compartments for form and dry under
vacuum and cake discharge under pressure with 2-2.5 bar snap or
0.2-0.25 bar constant blow. Most disc filters are fitted with one valve only
however two valves are often mounted on both drive and non-drive ends with
long barreled filters or when the hydraulic loadings are high.

An agitator with paddles that are positioned between the discs and far
enough not to interfere with the forming cake.

A tank which, on its discharge side, has separated slurry compartments
for the discs and discharge chutes for the blown-off cake. When the solids
are of an abrasive nature it is advisable to line the bottom portion of the
tank that cradles the agitator with rubber.

Two cake discharge blades on both sides of each disc are suspended from a
frame mounted on the tank and serve to deflect and guide the cake to the
discharge chutes. On large diameter filters the blades are of the swing type
that float to maintain the cake to disc clearance and so allow for the wobble
of the turning discs.

An overflow trough that spans across the entire tank length and ensures
full submergence of the sectors in the cake formation zone since an exposed
sector in the 6 o'clock position will cause immediate loss of vacuum.

Selection Criteria

The main considerations in selecting a Disc Filter are:

When they suit an application that meets the following requirements:

The form to dry time ratio is approximately ½ to 1.

No cake washing is required.

The cake parts easily from the cloth.

The cloth does not clog.

When a cloth on one of the sectors tears the entire sector may be
replaced within a very short downtime.

The filtration area may be expanded by adding more discs to a barrel that
has unused discs.

The Disc Filter provides for maximum area at minimum cost and floor
space.

Operational Sequence

The operation sequence of a Disc Filter is, except for washing, similar to a
Drum Filter.

Let us follow a sector as it passes from zone to zone:

Vacuum commences when the sector is fully submerged in the slurry and the
port of the rotating barrel passes the dead zone bridge.

The cake forms until the leading edge of the sector emerges from the
slurry and drying commences.

The sector continues to dry the cake under vacuum until the port in the
rotating barrel fully covers the bridge in the valve that separates the
vacuum from the blow compartments.

The port in the barrel passes the bridge and opens to constant low
pressure air blow or snap blow and the cake falls off to the discharge chute.

Once the barrel port passes the blow opening of the valve the sector
enters a dead zone that continues until the port opens to vacuum with the
sector fully submerged.

Maintenance

Disc Filters are subjected to high wear due to the presence of abrasive
solids in the various process slurries. Attention should be given to the
following subassemblies:

The agitator, its bearings and stuffing boxes.

The wear plate that is mounted on the barrel and seals against the valve
face.

The cloths or mesh screens that cover the sectors since they are
susceptible to wear and tear.

The clamps which join the sectors at their periphery to form the disc.
These clamps, being part of the disc, move at a high peripheral speed and
pass near the agitator so if they wear out the sectors may fall apart.

The tips of the cake deflecting blades on both sides of each disc.
Likewise, the suspension that enables the swinging of the blades should move
freely and follow the wobble of the disc.

The tank should be inspected during shut-downs for erosion and with
special attention to the agitator's cradle.